//
// Copyright (c) 2015-2019 CNRS INRIA
//

#ifndef __pinocchio_kinematics_hpp__
#define __pinocchio_kinematics_hpp__

#include "pinocchio/multibody/model.hpp"
#include "pinocchio/multibody/data.hpp"

namespace pinocchio
{

  ///
  /// \brief Update the global placement of the joints oMi according to the relative
  ///        placements of the joints.
  ///
  /// \tparam JointCollection Collection of Joint types.
  ///
  /// \param[in] model The model structure of the rigid body system.
  /// \param[in] data The data structure of the rigid body system.
  ///
  /// \remarks This algorithm may be useful to call to update global joint placement
  ///         after calling pinocchio::rnea, pinocchio::aba, etc for example.
  ///
  template<typename Scalar, int Options, template<typename, int> class JointCollectionTpl>
  void updateGlobalPlacements(
    const ModelTpl<Scalar, Options, JointCollectionTpl> & model,
    DataTpl<Scalar, Options, JointCollectionTpl> & data);

  ///
  /// \brief Update the joint placements according to the current joint configuration.
  ///
  /// \tparam JointCollection Collection of Joint types.
  /// \tparam ConfigVectorType Type of the joint configuration vector.
  ///
  /// \param[in] model The model structure of the rigid body system.
  /// \param[in] data The data structure of the rigid body system.
  /// \param[in] q The joint configuration (vector dim model.nq).
  ///
  template<
    typename Scalar,
    int Options,
    template<typename, int> class JointCollectionTpl,
    typename ConfigVectorType>
  void forwardKinematics(
    const ModelTpl<Scalar, Options, JointCollectionTpl> & model,
    DataTpl<Scalar, Options, JointCollectionTpl> & data,
    const Eigen::MatrixBase<ConfigVectorType> & q);

  ///
  /// \brief Update the joint placements and spatial velocities according to the current joint
  /// configuration and velocity.
  ///
  /// \tparam JointCollection Collection of Joint types.
  /// \tparam ConfigVectorType Type of the joint configuration vector.
  /// \tparam TangentVectorType Type of the joint velocity vector.
  ///
  /// \param[in] model The model structure of the rigid body system.
  /// \param[in] data The data structure of the rigid body system.
  /// \param[in] q The joint configuration (vector dim model.nq).
  /// \param[in] v The joint velocity (vector dim model.nv).
  ///
  template<
    typename Scalar,
    int Options,
    template<typename, int> class JointCollectionTpl,
    typename ConfigVectorType,
    typename TangentVectorType>
  void forwardKinematics(
    const ModelTpl<Scalar, Options, JointCollectionTpl> & model,
    DataTpl<Scalar, Options, JointCollectionTpl> & data,
    const Eigen::MatrixBase<ConfigVectorType> & q,
    const Eigen::MatrixBase<TangentVectorType> & v);
  ///
  /// \brief Update the joint placements, spatial velocities and spatial accelerations according to
  /// the current joint configuration, velocity and acceleration.
  ///
  /// \tparam JointCollection Collection of Joint types.
  /// \tparam ConfigVectorType Type of the joint configuration vector.
  /// \tparam TangentVectorType1 Type of the joint velocity vector.
  /// \tparam TangentVectorType2 Type of the joint acceleration vector.
  ///
  /// \param[in] model The model structure of the rigid body system.
  /// \param[in] data The data structure of the rigid body system.
  /// \param[in] q The joint configuration (vector dim model.nq).
  /// \param[in] v The joint velocity (vector dim model.nv).
  /// \param[in] a The joint acceleration (vector dim model.nv).
  ///
  template<
    typename Scalar,
    int Options,
    template<typename, int> class JointCollectionTpl,
    typename ConfigVectorType,
    typename TangentVectorType1,
    typename TangentVectorType2>
  void forwardKinematics(
    const ModelTpl<Scalar, Options, JointCollectionTpl> & model,
    DataTpl<Scalar, Options, JointCollectionTpl> & data,
    const Eigen::MatrixBase<ConfigVectorType> & q,
    const Eigen::MatrixBase<TangentVectorType1> & v,
    const Eigen::MatrixBase<TangentVectorType2> & a);

  /**
   * @brief      Returns the spatial velocity of the joint expressed in the desired reference frame.
   *             You must first call pinocchio::forwardKinematics to update placement and velocity
   * values in data structure.
   *
   * @param[in] model     The kinematic model
   * @param[in] data      Data associated to model
   * @param[in] jointId   Id of the joint
   * @param[in] rf        Reference frame in which the velocity is expressed.
   *
   * @return     The spatial velocity of the joint expressed in the desired reference frame.
   *
   * @warning    Fist or second order forwardKinematics should have been called first
   */
  template<typename Scalar, int Options, template<typename, int> class JointCollectionTpl>
  MotionTpl<Scalar, Options> getVelocity(
    const ModelTpl<Scalar, Options, JointCollectionTpl> & model,
    const DataTpl<Scalar, Options, JointCollectionTpl> & data,
    const JointIndex jointId,
    const ReferenceFrame rf = LOCAL);

  /**
   * @brief      Returns the spatial acceleration of the joint expressed in the desired reference
   * frame. You must first call pinocchio::forwardKinematics to update placement, velocity and
   * acceleration values in data structure.
   *
   * @param[in] model     The kinematic model
   * @param[in] data      Data associated to model
   * @param[in] jointId   Id of the joint
   * @param[in] rf        Reference frame in which the acceleration is expressed.
   *
   * @return     The spatial acceleration of the joint expressed in the desired reference frame.
   *
   * @warning    Second order forwardKinematics should have been called first
   */
  template<typename Scalar, int Options, template<typename, int> class JointCollectionTpl>
  MotionTpl<Scalar, Options> getAcceleration(
    const ModelTpl<Scalar, Options, JointCollectionTpl> & model,
    const DataTpl<Scalar, Options, JointCollectionTpl> & data,
    const JointIndex jointId,
    const ReferenceFrame rf = LOCAL);

  /**
   * @brief      Returns the "classical" acceleration of the joint expressed in the desired
   * reference frame. This is different from the "spatial" acceleration in that centrifugal effects
   * are accounted for. You must first call pinocchio::forwardKinematics to update placement,
   * velocity and acceleration values in data structure.
   *
   * @param[in] model     The kinematic model
   * @param[in] data      Data associated to model
   * @param[in] jointId   Id of the joint
   * @param[in] rf        Reference frame in which the acceleration is expressed.
   *
   * @return     The classic acceleration of the joint expressed in the desired reference frame.
   *
   * @warning    Second order forwardKinematics should have been called first
   */
  template<typename Scalar, int Options, template<typename, int> class JointCollectionTpl>
  MotionTpl<Scalar, Options> getClassicalAcceleration(
    const ModelTpl<Scalar, Options, JointCollectionTpl> & model,
    const DataTpl<Scalar, Options, JointCollectionTpl> & data,
    const JointIndex jointId,
    const ReferenceFrame rf = LOCAL);

} // namespace pinocchio

/* --- Details -------------------------------------------------------------------- */
/* --- Details -------------------------------------------------------------------- */
/* --- Details -------------------------------------------------------------------- */
#include "pinocchio/algorithm/kinematics.hxx"

#if PINOCCHIO_ENABLE_TEMPLATE_INSTANTIATION
  #include "pinocchio/algorithm/kinematics.txx"
#endif // PINOCCHIO_ENABLE_TEMPLATE_INSTANTIATION

#endif // ifndef __pinocchio_kinematics_hpp__
